Strongly correlated quantum spin liquid in herbertsmithite

被引:0
|
作者
V. R. Shaginyan
K. G. Popov
V. A. Khodel
机构
[1] Petersburg Nuclear Physics Institute,Komi Science Center
[2] Ural Branch of Russian Academy of Sciences,McDonnell Center for the Space Sciences and Department of Physics
[3] Russian Research Centre Kurchatov Institute,undefined
[4] Washington University,undefined
来源
Journal of Experimental and Theoretical Physics | 2013年 / 116卷
关键词
ZnCu; Quantum Phase Transition; Heavy Fermion; Spin Susceptibility; Kagome Lattice;
D O I
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中图分类号
学科分类号
摘要
Strongly correlated Fermi systems are among the most intriguing and fundamental systems in physics. We show that the herbertsmithite ZnCu3(OH)6Cl2 can be regarded as a new type of strongly correlated electrical insulator that possesses properties of heavy-fermion metals with one exception: it resists the flow of electric charge. We demonstrate that herbertsmithite’s low-temperature properties are defined by a strongly correlated quantum spin liquid made with hypothetic particles such as fermionic spinons that carry spin 1/2 and no charge. Our calculations of its thermodynamic and relaxation properties are in good agreement with recent experimental facts and allow us to reveal their scaling behavior, which strongly resembles that observed in heavy-fermion metals. Analysis of the dynamic magnetic susceptibility of strongly correlated Fermi systems suggests that there exist at least two types of its scaling.
引用
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页码:848 / 853
页数:5
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